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A Perspective on Semiconductor Equipment. R. B. Herring March 4, 2004. Outline. Semiconductor Industry Overview of circuit fabrication Semiconductor Equipment Industry Some equipment business strategies Product development and life cycles. Semiconductor Industry.
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A Perspective onSemiconductor Equipment R. B. Herring March 4, 2004
Outline • Semiconductor Industry • Overview of circuit fabrication • Semiconductor Equipment Industry • Some equipment business strategies • Product development and life cycles
Semiconductor Industry • 1948 – Bell Labs invention of transistors • Era of discrete transistor products • 1963 – Intel & TI develop integrated circuits • Provided on-chip connection of transistors • Building blocks for complex board products for large electronic systems • 1970&80’s – Challenges from Japan, Korea • 1990’s • Rise of “Fabless” Design Companies • Rise of “Foundry Companies” • Taiwan, Singapore, Malaysia, China
IC Technology Trend Log Scale INTEL Presentation SPIE 03/2003
Oxidation or Film Deposition Cleaning Metrology Metrology Lithography Etching Cleaning Metrology Integrated Circuit Fabrication - simplified
50 - 35nm 70 - 50 nm Metal gate Ge doped High k High K Oxide Si substrate Si substrate High-K Gates High-k Oxide/Nitride Stack ALD ALD/Mini-Batch New Gate Processes for sub-100nm nodes Gate Dielectrics polysilicon
Semiconductor Equipment • 1950’s – Adapted the equipment from other industries • 1960’s – Internal eqpt. Development by major users • Motorola, T.I., AT&T, IBM, Fairchild, Others • 1970’s – Rise of a dedicated equipment industry • 1980’s – Growth of number and size of companies • Formation and growth of eqpt. companies in Japan • 1990’s – Consolidation by mergers • 2000’s – Continued consolidation • Offshore subsidiaries of U.S., European based companies • Formation of new companies in China, Korea, S.E. Asia
Equipment Types • Deposition – formation of surface films • Lithography – pattern transfer • Etching – cuts the pattern into a layer • Cleaning – removal of residue or contamination • Metrology – measurement of results • Storage/ Transport – management of lot tracking and robotic movements • Host level fab management system
A Typical Vertical Furnace Small Batch Tool 3 feet wide 8 feet deep 10 feet high Load size: 25 Wafer size: 300-mm wafers
. Ⅰ A(g) Introduction of A(g) onto the substrate surface . Ⅱ A(S) Formation of an A(s) monolayer surface . Ⅲ B(g) Introduction of B(g) onto A(s) surface n . Ⅳ B(S) Formation of B(s) monolayer surface Basic Reaction Cycle of ALD surface Introduction of A(g) onto the substrate Formation of an A mono-layer surface Introduction of B(g) onto A(s) surface Formation of B(s) mono-layer surface
Side view of the ALD System Multi-chamber single wafer process
Business Strategies • Applied Materials - • Founded to be a chemical supplier to semiconductor fibs • Entered equipment building as a way to generate cash flow • Recognized the potential of being an equipment supplier • Strategy changed in mid-70’s to become a company offering products in several areas • Growth until today dominates tool selections except in photolithography tools
Business Strategies • TEL (Tokyo Electron Limited) • Initially a trading company in Japan • Sales of US, European built equipment into Japan • Joint Ventures for sales + customization of eqpt. • Japanese designed products by mid-1980’s • Dissolution of Joint Ventures • Now global competitor with broad product line
Business Strategies • Nikon, Cannon • Focused on a single area – patterning eqpt. • Leverage experience in other optical products
Business Strategies • ASML • Grew out of development of an stepper type exposure tool at Philips Semiconductor • Joint Venture of Philips with ASMI • Focused on a single area – patterning eqpt. • Merger with Silicon Valley Group in 2000 • Short term expansion into other equipment areas • Return to single product focus
Product Development Cycle • MRS – Market Requirements Statement • Design objectives and process objectives • Build of one or more prototypes • Design verification and improvement • Product introduction • Transfer to pilot / full production • Support and Sustaining Activities • End of Product Life Cycle Strategies
Product Development Cycle • MRS – Market Requirements Statement • Marketing Dept. is the responsible group • Defines goals of a new model/type eqpt. • Defines performance and cost goals • Needs to be tested with key customers • Input for engineering designs
Product Development Cycle • Functional Specifications • Design Engineering Dept. is responsible • Defines the design goals of a new model/type • Defines the expected performance objectives • Uses a lot of computer assisted design • Stress analysis • Computational flow dynamics and thermal modeling • System throughput analysis • Defines a budget for sub-system cost objectives • Defines a reliability budget for sub-systems • Needs to be aligned with the MRS • Provides the input for engineering designs
General Management and Finance Design Engineering Process Engineering and Mfg. Eng Marketing and Sales Materials and Manufacturing Key Group Interactions DuringProduct Development
Product Design Cycle • Design is broken into major blocks • Decisions made about use of existing blocks • Process modules • Controls • Robotic handling • Software • Major new blocks broken into smaller areas • Design broken into single designer team tasks • Tasks get scheduled in order needed
Control of the Design • Program manager • Coordinates schedules • Management program reviews • Focus on schedules, costs, performance • Engineering Design reviews • Concept • Detailed design • Final design review
Control of the Design • Engineering reviews should focus on • Performance • Reliability • Cost
Building Prototypes • Decisions about • Design / Fabrication of design blocks • Design & build internally • Design internally / outsource fabrication • Outsource design and fabrication • Identify and qualify outside suppliers • Jointly with manufacturing engineering and purchasing
Build of one or more prototypes • Integration of new with existing blocks • Process modules • Controls • Robotic handling • Environmental controls (low O2, low H2O) • Software • Integration to fab wide transport • Testing of tool-host communications • SEMI-S2 and other code compliance reviews
Design Verification with prototypes • System level testing • Performance of new with existing blocks • Process development / recipe development • Demonstrations meeting MRS objectives • Customer demonstrations • Mini-marathons • Test for weak components • Test sub-system reliability • Implement reliability or performance fixes
Tools for Design Verification • DOE (Design of Experiments) testing • Highly efficient use of test time and resources • SPC (Statistical Process Control) • Testing for system performance repeatability • Assessment of system reliability
Product introduction Needs • Defined target market • Defined performance guarantees • Operation and maintenance manuals • SEMI S-2 and other code reviews
Transfer to pilot production Release to full production Needs • Completion of design documentation • Commercial component specifications • Component designs / drawing trees • Assembly drawings / assembly plan • Work instructions • Supplier identification / qualification • Personnel training • At suppliers • For final assembly and test
Support and Sustaining Activities • Training of field installation staff • Training in-factory support staff • Training customer site maintenance staff • Planning for spare parts logistics • CIP (Continuous Improvement Programs) • Fix identified problems • Add performance enhancement • Develop and release new options
End of Product Life Cycle Strategies Plan for - • Replacement of aging models • Phase out of existing models • Last date for acceptance of new orders • Support plan for existing customers • Spare and consumable parts strategy • Parts and support by a third party company?
Summary • Equipment for the semiconductor industry • Technically challenging • A strong base of U.S. based companies • Presents a lot of job opportunities in • Various fields of engineering • Management of Technology • Technical marketing and sales